S. Anderson, and M. Felici. Intl. Computer Software and Applications Conference, page 27--32. (2002)
Abstract
Requirements evolution is considered as one of the most critical issues in developing computer-based systems. Despite the recognised role of requirements in software engineering, requirements evolution is little understood from both quantitative and qualitative perspectives. This paper investigates our ability to understand the requirements evolution process by means of metrics. The empirical investigation of an avionics industrial safety-critical case study, assesses our ability to monitor requirements evolution by evolutionary trends and the Requirements Maturity Index (RMI). We propose an enrichment of the RMI in order to take into account process aspects and history of changes. The empirical results support the models underlying the proposed metrics. The empirical nature of this work allows to replicate the experiment in other industrial contexts and to benefit of our results.
%0 Conference Paper
%1 anderson02
%A Anderson, S.
%A Felici, M.
%B Intl. Computer Software and Applications Conference
%D 2002
%J COMPSAC 2002
%K evolution requirements empirical
%P 27--32
%T Quantitative aspects of requirements evolution
%U http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=1044529
%X Requirements evolution is considered as one of the most critical issues in developing computer-based systems. Despite the recognised role of requirements in software engineering, requirements evolution is little understood from both quantitative and qualitative perspectives. This paper investigates our ability to understand the requirements evolution process by means of metrics. The empirical investigation of an avionics industrial safety-critical case study, assesses our ability to monitor requirements evolution by evolutionary trends and the Requirements Maturity Index (RMI). We propose an enrichment of the RMI in order to take into account process aspects and history of changes. The empirical results support the models underlying the proposed metrics. The empirical nature of this work allows to replicate the experiment in other industrial contexts and to benefit of our results.
@inproceedings{anderson02,
abstract = {Requirements evolution is considered as one of the most critical issues in developing computer-based systems. Despite the recognised role of requirements in software engineering, requirements evolution is little understood from both quantitative and qualitative perspectives. This paper investigates our ability to understand the requirements evolution process by means of metrics. The empirical investigation of an avionics industrial safety-critical case study, assesses our ability to monitor requirements evolution by evolutionary trends and the Requirements Maturity Index (RMI). We propose an enrichment of the RMI in order to take into account process aspects and history of changes. The empirical results support the models underlying the proposed metrics. The empirical nature of this work allows to replicate the experiment in other industrial contexts and to benefit of our results.},
added-at = {2006-09-04T19:16:16.000+0200},
author = {Anderson, S. and Felici, M.},
biburl = {https://www.bibsonomy.org/bibtex/2dc80948feda4e31619c81fc7c25da2ba/neilernst},
booktitle = {Intl. Computer Software and Applications Conference},
citeulike-article-id = {776833},
description = {citeulike sept 4},
interhash = {6f9e27cdbed370f0a3dfd779ecf00b9c},
intrahash = {dc80948feda4e31619c81fc7c25da2ba},
journal = {COMPSAC 2002},
keywords = {evolution requirements empirical},
pages = {27--32},
priority = {0},
timestamp = {2006-09-04T19:16:16.000+0200},
title = {Quantitative aspects of requirements evolution},
url = {http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=1044529},
year = 2002
}